﻿//////////////////////////////////////////////////////////////////////////////
//
// Copyright © 1998-2024 Glodon Company Limited.
//
// Licensed under the MIT License
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the “Software”),
// to deal in the Software without restriction, including without limitation
// the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
// sell copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED “AS IS”, WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
// THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
//
//////////////////////////////////////////////////////////////////////////////
#include "GbmpCalculatorBase.h"
#include "IInstance.h"
#include "IElementModelShape.h"
#include "StructureInstanceUtils.h"
#include "GbmpBuiltInParameterDefinitionsNew.h"
#include "IParameterDefinitionLibrary.h"
#include "UniIdentity.h"

#include "EnableCompileWarning_The_LAST_IncludeInCpp.h"

using namespace gcmp;

namespace gcmp
{
#pragma region Beam Elevation Calculator Base
    class StructureBeamElevationCalculatorBase :public GbmpCalculatorBase
    {
    public:
        StructureBeamElevationCalculatorBase(IDocument* pDoc, const RegenDataId& outputDataId) : GbmpCalculatorBase(pDoc, outputDataId) {}
        virtual void ReportInputDataIds(std::vector<RegenDataId> & dataIds) const override;
    };

    void StructureBeamElevationCalculatorBase::ReportInputDataIds(std::vector<RegenDataId> & dataIds) const
    {
        IInstance* pTarget = GetElement<IInstance>();
        DBG_WARN_AND_RETURN_VOID_UNLESS(pTarget, L"计算器的目标对象为空",L"GDMPLab",L"2024-03-30");
        const IElementModelShape* pGrepBehavior = pTarget->GetElementModelShape();
        DBG_WARN_AND_RETURN_VOID_UNLESS(pGrepBehavior, L"构件IGraphicsElementShapeBehavior为空",L"GDMPLab",L"2024-03-30");
        dataIds.push_back(pGrepBehavior->GetGraphicsElementShapeRdId());
    }

#pragma endregion Beam Elevation Calculator Base

#pragma region BasicBeam Elevation Calculator
    class StructureBasicBeamTopElevationCalculator : public StructureBeamElevationCalculatorBase
    {
        DECLARE_CALCULATOR(StructureBasicBeamTopElevationCalculator, IInstance)
    public:
        StructureBasicBeamTopElevationCalculator(IDocument* pDoc, const RegenDataId& outputDataId) : StructureBeamElevationCalculatorBase(pDoc, outputDataId) {}
        virtual void Execute() override;
    };

    class StructureBasicBeamBottomElevationCalculator : public StructureBeamElevationCalculatorBase
    {
        DECLARE_CALCULATOR(StructureBasicBeamBottomElevationCalculator, IInstance)
    public:
        StructureBasicBeamBottomElevationCalculator(IDocument* pDoc, const RegenDataId& outputDataId) : StructureBeamElevationCalculatorBase(pDoc, outputDataId) {}
        virtual void Execute() override;
    };

    class StructureBasicBeamStartTopElevationCalculator : public StructureBeamElevationCalculatorBase
    {
        DECLARE_CALCULATOR(StructureBasicBeamStartTopElevationCalculator, IInstance)
    public:
        StructureBasicBeamStartTopElevationCalculator(IDocument* pDoc, const RegenDataId& outputDataId) : StructureBeamElevationCalculatorBase(pDoc, outputDataId) {}
        virtual void Execute() override;
    };

    class StructureBasicBeamStartBottomElevationCalculator : public StructureBeamElevationCalculatorBase
    {
        DECLARE_CALCULATOR(StructureBasicBeamStartBottomElevationCalculator, IInstance)
    public:
        StructureBasicBeamStartBottomElevationCalculator(IDocument* pDoc, const RegenDataId& outputDataId) : StructureBeamElevationCalculatorBase(pDoc, outputDataId) {}
        virtual void Execute() override;
    };

    class StructureBasicBeamEndTopElevationCalculator : public StructureBeamElevationCalculatorBase
    {
        DECLARE_CALCULATOR(StructureBasicBeamEndTopElevationCalculator, IInstance)
    public:
        StructureBasicBeamEndTopElevationCalculator(IDocument* pDoc, const RegenDataId& outputDataId) : StructureBeamElevationCalculatorBase(pDoc, outputDataId) {}
        virtual void Execute() override;
    };

    class StructureBasicBeamEndBottomElevationCalculator : public StructureBeamElevationCalculatorBase
    {
        DECLARE_CALCULATOR(StructureBasicBeamEndBottomElevationCalculator, IInstance)
    public:
        StructureBasicBeamEndBottomElevationCalculator(IDocument* pDoc, const RegenDataId& outputDataId) : StructureBeamElevationCalculatorBase(pDoc, outputDataId) {}
        virtual void Execute() override;
    };

    void StructureBasicBeamTopElevationCalculator::Execute()
    {
        IInstance* pInstance = GetElement<IInstance>();
        DBG_WARN_AND_RETURN_VOID_UNLESS(pInstance, L"计算器的目标对象为空",L"GDMPLab",L"2024-03-30");
        double topElevation;
        if (StructureInstanceUtils::GetBasicBeamTopElevation(pInstance, topElevation))
        {
            UniIdentity paramUid = PARAMETER_UID(TopElevationBuiltInParameter);
            StructureInstanceUtils::SetInstanceOutputParamValueByParamUid(pInstance, topElevation, paramUid);
        }
    }

    void StructureBasicBeamBottomElevationCalculator::Execute()
    {
        IInstance* pInstance = GetElement<IInstance>();
        DBG_WARN_AND_RETURN_VOID_UNLESS(pInstance, L"计算器的目标对象为空",L"GDMPLab",L"2024-03-30");
        double bottomElevation;
        if (StructureInstanceUtils::GetBasicBeamBottomElevation(pInstance, bottomElevation))
        {
            UniIdentity paramUid = PARAMETER_UID(BottomElevationBuiltInParameter);
            StructureInstanceUtils::SetInstanceOutputParamValueByParamUid(pInstance, bottomElevation, paramUid);
        }
    }

    void StructureBasicBeamStartTopElevationCalculator::Execute()
    {
        IInstance* pInstance = GetElement<IInstance>();
        DBG_WARN_AND_RETURN_VOID_UNLESS(pInstance, L"计算器的目标对象为空",L"GDMPLab",L"2024-03-30");
        double startTopElevation;
        if (StructureInstanceUtils::GetBasicBeamStartTopElevation(pInstance, startTopElevation))
        {
            UniIdentity paramUid = PARAMETER_UID(StartTopElevationBuiltInParameter);
            StructureInstanceUtils::SetInstanceOutputParamValueByParamUid(pInstance, startTopElevation, paramUid);
        }
    }

    void StructureBasicBeamStartBottomElevationCalculator::Execute()
    {
        IInstance* pInstance = GetElement<IInstance>();
        DBG_WARN_AND_RETURN_VOID_UNLESS(pInstance, L"计算器的目标对象为空",L"GDMPLab",L"2024-03-30");
        double startBottomElevation;
        if (StructureInstanceUtils::GetBasicBeamStartBottomElevation(pInstance, startBottomElevation))
        {
            UniIdentity paramUid = PARAMETER_UID(StartBottomElevationBuiltInParameter);
            StructureInstanceUtils::SetInstanceOutputParamValueByParamUid(pInstance, startBottomElevation, paramUid);
        }
    }

    void StructureBasicBeamEndTopElevationCalculator::Execute()
    {
        IInstance* pInstance = GetElement<IInstance>();
        DBG_WARN_AND_RETURN_VOID_UNLESS(pInstance, L"计算器的目标对象为空",L"GDMPLab",L"2024-03-30");
        double endTopElevation;
        if (StructureInstanceUtils::GetBasicBeamEndTopElevation(pInstance, endTopElevation))
        {
            UniIdentity paramUid = PARAMETER_UID(EndTopElevationBuiltInParameter);
            StructureInstanceUtils::SetInstanceOutputParamValueByParamUid(pInstance, endTopElevation, paramUid);
        }
    }

    void StructureBasicBeamEndBottomElevationCalculator::Execute()
    {
        IInstance* pInstance = GetElement<IInstance>();
        DBG_WARN_AND_RETURN_VOID_UNLESS(pInstance, L"计算器的目标对象为空",L"GDMPLab",L"2024-03-30");
        double endBottomElevation;
        if (StructureInstanceUtils::GetBasicBeamEndBottomElevation(pInstance, endBottomElevation))
        {
            UniIdentity paramUid = PARAMETER_UID(EndBottomElevationBuiltInParameter);
            StructureInstanceUtils::SetInstanceOutputParamValueByParamUid(pInstance, endBottomElevation, paramUid);
        }
    }

#pragma endregion BasicBeam Elevation Calculator

#pragma region VariableSectionBeam Elevation And BottomAngle Calculator
    class StructureVariableSectionBeamTopElevationCalculator : public StructureBeamElevationCalculatorBase
    {
        DECLARE_CALCULATOR(StructureVariableSectionBeamTopElevationCalculator, IInstance)
    public:
        StructureVariableSectionBeamTopElevationCalculator(IDocument* pDoc, const RegenDataId& outputDataId) : StructureBeamElevationCalculatorBase(pDoc, outputDataId) {}
        virtual void Execute() override;
    };

    class StructureVariableSectionBeamStartBottomElevationCalculator : public StructureBeamElevationCalculatorBase
    {
        DECLARE_CALCULATOR(StructureVariableSectionBeamStartBottomElevationCalculator, IInstance)
    public:
        StructureVariableSectionBeamStartBottomElevationCalculator(IDocument* pDoc, const RegenDataId& outputDataId) : StructureBeamElevationCalculatorBase(pDoc, outputDataId) {}
        virtual void Execute() override;
    };

    class StructureVariableSectionBeamEndBottomElevationCalculator : public StructureBeamElevationCalculatorBase
    {
        DECLARE_CALCULATOR(StructureVariableSectionBeamEndBottomElevationCalculator, IInstance)
    public:
        StructureVariableSectionBeamEndBottomElevationCalculator(IDocument* pDoc, const RegenDataId& outputDataId) : StructureBeamElevationCalculatorBase(pDoc, outputDataId) {}
        virtual void Execute() override;
    };

    class StructureVariableSectionBeamBottomAngleCalculator : public StructureBeamElevationCalculatorBase
    {
        DECLARE_CALCULATOR(StructureVariableSectionBeamBottomAngleCalculator, IInstance)
    public:
        StructureVariableSectionBeamBottomAngleCalculator(IDocument* pDoc, const RegenDataId& outputDataId) : StructureBeamElevationCalculatorBase(pDoc, outputDataId) {}
        virtual void Execute() override;
    };

    void StructureVariableSectionBeamTopElevationCalculator::Execute()
    {
        IInstance* pInstance = GetElement<IInstance>();
        DBG_WARN_AND_RETURN_VOID_UNLESS(pInstance, L"计算器的目标对象为空",L"GDMPLab",L"2024-03-30");
        double topElevation;
        if (StructureInstanceUtils::GetVariableSectionBeamTopElevation(pInstance, topElevation))
        {
            UniIdentity paramUid = PARAMETER_UID(TopElevationBuiltInParameter);
            StructureInstanceUtils::SetInstanceOutputParamValueByParamUid(pInstance, topElevation, paramUid);
        }
    }

    void StructureVariableSectionBeamStartBottomElevationCalculator::Execute()
    {
        IInstance* pInstance = GetElement<IInstance>();
        DBG_WARN_AND_RETURN_VOID_UNLESS(pInstance, L"计算器的目标对象为空",L"GDMPLab",L"2024-03-30");
        double startBottomElevation;
        if (StructureInstanceUtils::GetVariableSectionBeamStartBottomElevation(pInstance, startBottomElevation))
        {
            UniIdentity paramUid = PARAMETER_UID(StartBottomElevationBuiltInParameter);
            StructureInstanceUtils::SetInstanceOutputParamValueByParamUid(pInstance, startBottomElevation, paramUid);
        }
    }

    void StructureVariableSectionBeamEndBottomElevationCalculator::Execute()
    {
        IInstance* pInstance = GetElement<IInstance>();
        DBG_WARN_AND_RETURN_VOID_UNLESS(pInstance, L"计算器的目标对象为空",L"GDMPLab",L"2024-03-30");
        double endBottomElevation;
        if (StructureInstanceUtils::GetVariableSectionBeamEndBottomElevation(pInstance, endBottomElevation))
        {
            UniIdentity paramUid = PARAMETER_UID(EndBottomElevationBuiltInParameter);
            StructureInstanceUtils::SetInstanceOutputParamValueByParamUid(pInstance, endBottomElevation, paramUid);
        }
    }

    void StructureVariableSectionBeamBottomAngleCalculator::Execute()
    {
        IInstance* pInstance = GetElement<IInstance>();
        double bottomAngle;
        if (StructureInstanceUtils::GetVariableSectionBeamBottomAngle(pInstance, bottomAngle))
        {
            UniIdentity paramUid = PARAMETER_UID(VariableSectionBeamBottomAngleBuiltInParameter);
            StructureInstanceUtils::SetInstanceOutputParamValueByParamUid(pInstance, bottomAngle, paramUid);
        }
    }

#pragma endregion VariableSectionBeam Elevation And BottomAngle Calculator
}

IMPLEMENT_CALCULATOR_CREATOR(gcmp, StructureBasicBeamTopElevationCalculator);
IMPLEMENT_CALCULATOR_CREATOR(gcmp, StructureBasicBeamBottomElevationCalculator);
IMPLEMENT_CALCULATOR_CREATOR(gcmp, StructureBasicBeamStartTopElevationCalculator);
IMPLEMENT_CALCULATOR_CREATOR(gcmp, StructureBasicBeamStartBottomElevationCalculator);
IMPLEMENT_CALCULATOR_CREATOR(gcmp, StructureBasicBeamEndTopElevationCalculator);
IMPLEMENT_CALCULATOR_CREATOR(gcmp, StructureBasicBeamEndBottomElevationCalculator);

IMPLEMENT_CALCULATOR_CREATOR(gcmp, StructureVariableSectionBeamTopElevationCalculator);
IMPLEMENT_CALCULATOR_CREATOR(gcmp, StructureVariableSectionBeamStartBottomElevationCalculator);
IMPLEMENT_CALCULATOR_CREATOR(gcmp, StructureVariableSectionBeamEndBottomElevationCalculator);

IMPLEMENT_CALCULATOR_CREATOR(gcmp, StructureVariableSectionBeamBottomAngleCalculator);